Process and installation for warm dehulling soya

ABSTRACT

The invention relates to a method for warm dehulling soya and other bean fruits and for subsequently grinding them, as well as to corresponding installation. The invention can simplify the process and the design of the installation. To this end, the fruits and heated/conditioned, double-ground, individualized on a baffle plate and the hulls are removed.

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application is a continuation application under 35 U.S.C. §120 of PCT/CH00/00461, designating the United States, filed 30 Aug. 2000, which is incorporated herein by reference.

BACKGROUND

[0002] The present invention relates to a process for warm dehulling soya beans and other bean fruits and subsequently grinding them, as well as an installation for carrying out said process.

[0003] The warm dehulling of soya or other bean fruits, for example in preparing subsequent grinding, is known in general. DE-C-3544387 describes such a dehulling process, in which the fruit are heated through to the core at a certain temperature, are next subjected to a hot gas flow followed by removal of the hulls. The fruit are heated through at 50° C. to 75° C. at least partially by means of contact heat. The temperature in the gas flow is raised to 90° C.

[0004] The fruit are subjected to the contact heat in a device with hot surfaces, and to the hot gas flow on the other hand in a fixed or fluidised bed. The dehulling device can be a baffle dehuller downstream of which another fluidised bed and/or a pneumatic sifter for removing hulls can be connected. Conditioning is carried out prior to grinding.

[0005] In a known, two-step grinding procedure, a first rough grinding step employing a pair of serrated rollers, followed by a pair of rubber rollers, is followed by a reducer and this is followed by a second rough grinding step employing two pairs of serrated rollers.

SUMMARY

[0006] The present invention is directed to a process for warm dehulling of soya bean fruits or similar fruits or products, which avoids the disadvantages of the prior art and enables the process to be carried out in a simplified manner.

[0007] An installation is provided for carrying out the process. A device is also provided for dehulling the fruit and removing the hulls (hull separator).

[0008] An exemplary process enables greater efficacy with fewer procedural steps. Conditioning and heatshock of soya or other bean fruits are followed by rough-grinding in a double-grinding unit and individualising on a baffle plate, followed by separation of the hulls with aspiration. A fine grinding procedure can follow this step.

[0009] The process enables a protein-rich meal (47% to 48%, depending on the protein content in the beans) to be produced.

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] The invention will now be described hereinbelow in greater detail in an embodiment with reference to a diagram, in which:

[0011]FIG. 1 illustrates a diagram of an exemplary process of an installation for warm dehulling and grinding soya or the like,

[0012]FIG. 2 illustrates a cross-section of an exemplary hull separator.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0013] In the following embodiment only the essential procedural and installation components are to be described in greater detail. Other associated procedural steps and installation components will emerge naturally from FIG. 1 with reference to the known prior art.

[0014] Whole soya beans enter steaming apparatus 1 and then a fixed or fluidised bed 2 for conditioning, as described for example in DE-C-3544387. The soya beans are heated in the steaming apparatus 1 by means of contact heat and in the fluidised bed 2 they are subjected to continuous heating in a hot gas flow at an average temperature of 70° C. to 90° C. On completion of heating the beans have a moisture content of 10-11%. Hulls which are already loosened are separated from the beans both in the steaming apparatus 1 and in the fluidised bed 2 in a known manner.

[0015] The beans prepared enter a heating receptacle, not illustrated here, (interim depot) or directly enter a rough-grinding roller frame 3. This rough-grinding roller frame 3 contains two directly superposed roller pairs 4, 5 which create a double-grinding step, as described for example in EP-C-335925. The roller pairs 4, 5 display serrated rollers.

[0016] The ground beans then reach a baffle individualizer 6 and then a hull separator 7, where the hulls are completely separated from the broken beans. The separated hulls can be subjected to further sifting in an air stream. This is then followed by a device for flaking in a flaking mill and/or continued grinding in a fine milling device.

[0017] Referring to FIG. 2, the hull separator 7 comprises a substantially cylindrical housing 701 having an upper material inlet 702 and a lower material outlet 703, as well as a lower gas inlet 704 and an upper gas outlet 705 for passing the crushed beans through in the countercurrent. In the process the beans are not only aspirated, but all loose hulls are also carried away in the gas stream.

[0018] The material inlet 702 contains a delivery chute 706 via which the beans (and hulls) impact a first conical baffle 707 arranged concentrically to the delivery chute 706 in a circular manner. Loose hulls and light particles are taken away by the gas stream flowing in the opposite direction. On the other hand the bean constituents roll down the conical surface of the baffle 707 and fall into an underlying hopper 708. Projecting into the open floor 709 of the hopper 708 is another underlying conical baffle 710. Due to the effect of gravity the beans and hull constituents roll from hopper 708 onto the conical surface of the second baffle 710 and from there into the other underlying hopper 711. In the process other hull constituents can be removed with the gas flow.

[0019] Projecting underneath this hopper 711 into the floor 712 of the second hopper 711 is another such baffle 713. A third and fourth baffle follow in a similar manner. The fourth baffle 713 has a similar hopper with an open floor 714. A fifth conical baffle 715 protrudes into this floor 714, as described hereinabove. This displays beneath its conical surface a cylindrical jacket surface 716, such that this baffle 715 covers the concentrically arranged opening 717 of the gas inlet 704.

[0020] Only baffle 707 exhibits a closed conical baffle surface, as compared to the tips of the upper baffles which are open at the top to enable the gas to flow through in the direction of the hopper and the overlying baffle.

[0021] The conical opening of the delivery chute 706 or parts of the delivery chute 706 can be height-adjusted to the baffle 707 (or the baffle also) in order to regulate the influx of beans as required.

[0022] Highly efficient aspiration of the bean goods and efficient separation of the hulls is achieved by this cascading impacting arrangement. At least two, three or more baffles can be provided in exemplary embodiments.

[0023] It will be appreciated by those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The presently disclosed embodiments are therefore considered in all respects to be illustrative and not restricted. The scope of the invention is indicated by the appended claims rather than the foregoing description and all changes that come within the meaning and range and equivalence thereof are intended to be embraced therein. 

1. A process for warm dehulling of bean fruits and subsequent grinding, comprising: warming the fruits; and grinding the bean fruits and separating hulls from the bean fruits, wherein the grinding is carried out by means of one double-milling step, followed by individualising the bean fruits on a baffle plate and aspiration with removal of the hulls.
 2. The process as claimed in claim 1, comprising: flaking or fine grinding the bean fruits following aspiration.
 3. The process as claimed in claim 1, wherein two-step rough-grinding takes place during the double-milling.
 4. The process as claimed in claim 1, comprising: passing a gas flow through a mixture of the ground beans and hulls in a countercurrent for hull separation; and aspirating and removing the hulls from the mixture by a cascading impacting effect of the mixture.
 5. An installation for warm dehulling of bean fruits and subsequent grinding, comprising: a steaming apparatus and/or a fluidised bed for heating the bean fruits; a rough-grinding mill for double-milling the bean fruits; and a baffle individualizer connected downstream of the rough-grinding mill followed by a hull separator.
 6. The installation as claimed in claim 5, comprising: a flaking mill and/or fine milling device is connected downstream of the hull separator.
 7. The installation as claimed in claim 5, wherein the rough-grinding mill contains two directly superposed roller pairs with serrated rollers.
 8. The installation as claimed in claim 5, wherein the hull separator contains baffles arranged to cascade over one another with conical baffle surfaces, whereby between every two baffles hoppers are arranged, into open floors of which each of the underlying baffles protrudes.
 9. The installation as claimed in claim 8, wherein at least two baffles are provided.
 10. The installation as claimed in claim 9, wherein the baffles are arranged concentrically to a center axis of the hull separator.
 11. A hull separator comprising: a substantially cylindrical housing with an upper material inlet, which merges into a delivery chute; a lower material outlet; a lower gas inlet; an upper gas outlet; several baffles arranged concentrically to a central axis of the housing and cascading over one another, which have conical baffle surfaces which distribute material inflowing through the delivery chute in a direction of inner walls of the housing; a hopper between every two baffles for deflecting material flow to a baffle surface of an underlying baffle, with each lower baffle protruding into an open floor of the hopper; an opening of the gas inlet arranged under a lowest baffle, concentrically to a central axis of the housing; and an upper first baffle having a closed conical baffle surface, while the baffle surfaces of the upper baffles are open at a cone apex.
 12. The process as claimed in claim 1, wherein the warming is performed by contact heat and/or in a hot gas flow. 